新興UMV、UGV市場（2008年至2018年）

Abstract

The continuous evolution of unmanned vehicle systems and the emergence of new technologies, coupled with recent operational successes in Iraq and Afghanistan, have led to the increased use of unmanned systems across the operational spectrum. Unmanned systems, in the form of unmanned aerial, ground and maritime vehicles, have become an integral part of modern military operations and, indeed, of the modern military arsenal.

Undoubtedly, unmanned systems have potential to register significant growth, but unlike Unmanned Aerial Vehicles (UAVs), Unmanned Maritime Vehicles (UMVs) and Unmanned Ground Vehicles (UGVs) are rapidly-emerging markets. This latest report - The Emerging UMV and UGV Markets 2008-2018 - analyses the market for UMVs and UGVs. It looks into the future and identifies the key companies and issues that will affect the market. Visiongain believes the US is at the forefront of UMV and UGV development, but do you know which other markets have potential for growth?

Visiongain notes that there are almost 150 UUVs being used by the US Navy alone. Visiongain believes the UMV market should exceed nearly $160 million by 2009. Do you know that the UGV market is growing rapidly? In 2004 the US army was using 162 robots in Iraq and Afghanistan. That grew to 5,000 in 2007 and will continue to climb to 6,000 in 2008. Visiongain believes UGV market will exceed $450 million by 2009, but do you know the market value in 2013, or even in 2018? This report will share all the information on market valuation with key market analysis and forecasts up to 2018.

Our new Emerging UMV and UGV Markets 2008-2018 report examines those markets critically, through comprehensive primary and secondary research. Importantly, visiongain discusses UMVs and UGVs in the context of the wider defence and industrial markets. In addition to consultation with experts in industry, this research involved a detailed study of relevant documents, industrial reports and current developments. Importantly, visiongain applied techniques such as financial forecasting and analysis of drivers and restraints. The result is a comprehensive market-based report with detailed analyses and informed opinion.

Why you should buy this report

In our Emerging UMV and UGV Markets 2008-2018 report you will find answers to the following questions:

• Where are the UMV and UGV markets now and how are they likely to develop?
• What sales will the worldwide UMV and UGV markets generate from 2008-2018?
• What are the most important technological issues for the UMV and UGV sectors?
• Which are the main companies involved in developing UMVs and UGVs?
• Is UUV market bigger than USV market?
• Is UUV non-military market bigger than military market?
• How widely are UMVs and UGVs currently used, and how will patterns of usage change in the future?

Visiongain believes UUVs are at the stage where they have become useful for a number of missions such as, port monitoring, ship tracking/inspection, intelligence gathering, surveillance, mine countermeasures (MCM), tactical oceanography, navigation, anti-submarine warfare (ASW) and mapping.

USVs have also proven viable for certain applications, especially port and harbour security, fixed and mobile asset security (such as oil rigs and piers, as well as maritime intercepting operations). A number of leading companies are already interested in this sector and are fast developing systems there. Companies specialising in defence-relevant engineering cannot afford to miss potential opportunities in this market area. Our report will help those organisations to understand this market sector and assess its potential from the present onwards.

Table of Contents

• 1. Executive Summary
• 2. Unmanned Maritime Vehicles
  • 2.0 Unmanned Maritime Vehicles (UMVs)
  • 2.1 Development of Unmanned Underwater Vehicles
  • 2.2 UUV Subsets
    • 2.2.1 Remotely Operated Vehicles (ROVs)
      • 2.2.1.1 The Evolution of ROVs
      • 2.2.1.2 ROV Global Activities
    • 2.2.2 Autonomous Underwater Vehicles (AUVs)
      • 2.2.2.1 AUV Development
  • 2.3 UUV Commercial Applications
  • 2.4 UUV Military Applications
  • 2.5 UUV Key Capabilities
    • 2.5.1 Maritime Reconnaissance
    • 2.5.2 Undersea Search and Survey
    • 2.5.3 Communication/Navigation Aid
    • 2.5.4 Submarine Track and Trail
  • 2.6 Advantage of UUVs
    • 2.6.1 Autonomy
    • 2.6.2 Risk Reduction
    • 2.6.3 Low Observability
    • 2.6.4 Cost Savings
    • 2.6.5 Deployability
    • 2.6.6 Environmental Adaptability
    • 2.6.7 Anti-Submarine Warfare (ASW) Capability
    • 2.6.8 Persistence
• 3. Global UUV Market
  • 3.1 United States
    • 3.1.1 REMUS UUV
    • 3.1.2 Long Term Mine Reconnaissance systems (LMRS)
    • 3.1.3 Mission Re-Configurable UUV (MRUUV)
    • 3.1.4 Bluefin-9
    • 3.1.5 Bluefin Hovering Autonomous Underwater Vehicle
    • 3.1.6 WLD-1 Remote Mine Hunting System (RMS)
  • 3.2 Australia
  • 3.3 Russia
  • 3.4 France
  • 3.5 Norway
  • 3.6 Finland
  • 3.7 India
  • 3.8 United Kingdom
  • 3.9 New Zealand
  • 3.10 Germany
• 4. Unmanned Surface Vehicles (USVs)
  • 4.1 The Development of USVs
  • 4.2 Classes of USVs
    • 4.2.1 X-Class
    • 4.2.2 Harbour Class
    • 4.2.3 Snorkeler Class
    • 4.2.4 Fleet Class
      • Figure 4.1 Four USV Class
  • 4.3 USV Missions
  • 4.4 US at the Forefront of USV Development
    • Table 4.1 Recent US USV programmes
• 5. USV Technological Issues
  • 5.0 Technological Issues
  • 5.1 Autonomy
  • 5.2 Obstacle and Collision Avoidance
  • 5.3 Automated Target Recognition (ATR)
  • 5.4 Autonomous Deployment and Retrieval of Un-Tethered Systems
• 6. USV Global Market
  • 6.1 United States
    • 6.1.1 SPARTAN SCOUT ACTD
  • 6.2 Singapore
  • 6.3 France
  • 6.4 Israel
  • 6.5 United Kingdom
• 7. UMV market Forecast 2008-2018
  • 7.0 UMV Market Forecast
  • 7.1 UMV Market Forecasts 2008-2018
    • Figure 7.1 UMV Market Forecast 2008-2018
  • 7.2 Obstacle to Market Growth
  • 7.3 Global UMV Activities
    • Figure: 7.2 Projected US Funding for UMVs 2008-2018
  • 7.4 Future of UMVs
• 8. The Development of Unmanned Ground Vehicles
  • 8.1 Definition of UGVs
  • 8.2 UGV types
    • 8.2.1 Tele-Operated UGVs
    • 8.2.2 Autonomous UGVs
  • 8.3 Global efforts for R&D and UGV Capabilities
  • 8.4 UGVs in Current Military Operations
    • 8.4.1 All Purpose Remote Transport System (ARTS)
    • 8.4.2 BomBot
    • 8.4.3 DOK-ing MV-4
    • 8.4.4 Dragon Runner
    • 8.4.5 EyeBall RI
    • 8.4.6 Man-Transportable Robotic System
    • 8.4.7 Mine Area Clearance Equipment (MACE)
    • 8.4.8 Multi-Function, Agile, Remote Controlled Robot (MARCbot)
    • 8.4.9 Omni-Directional Inspection System (ODIS)
    • 8.4.10 Robo-Trencher
    • 8.4.11 Throwbot
    • 8.4.12 Thougbot
  • 8.5 Military Applications Face Challenges
    • Table 8.1 Recent US UGV Programmes
  • 8.6 UGV Civilian Applications Set to Expand
    • 8.6.1 Robots in Healthcare
    • 8.6.2 Domestic Robots
• 9. UGV Technical and operational Issues
  • 9.1 Autonomy
  • 9.2 Communications Link
  • 9.3 Command and Control
  • 9.4 Safety
  • 9.5 Cost
• 10. UGV Global Market
  • 10.1 US Developments
    • 10.1.1 Future Combat Systems (FCS)
      • 10.1.1.1 Multifunction Utility/Logistics and Equipment (MULE)
      • 10.1.1.2 The Transport Mule Vehicle (MULE- T)
      • 10.1.1.3 The Countermine MULE Vehicle
      • 10.1.1.4 ARV-Assault-Light (ARV-A-L) MULE Vehicle
      • 10.1.1.5 Small Unmanned Ground Vehicle (SUGV)
      • 10.1.1.6 Gladiator Tactical Unmanned Ground Vehicle (TUGV)
      • 10.1.1.7 Autonomous Ground Vehicle
    • 10.1.2 Armed Robotic Vehicle (ARV)
    • 10.1.3 Dragon Runner Mobile Ground Sensor System
    • 10.1.4 BigDog
    • 10.1.5 LittleDog
    • 10.1.6 PackBots
    • 10.1.7 MDARS
    • 10.1.8 Last Armor
    • 10.1.9 TALON
    • 10.1.10 Miniature Robots
    • 10.1.11 Archerfish Mine Neutralizers
  • 10.2 France
  • 10.3 Germany
  • 10.4 Singapore
  • 10.5 South Korea
  • 10.6 Israel
    • 10.6.1 Guardium UGV
      • 10.6.1.1 Tomcar-based UGVs
      • 10.6.1.2 AvantGuard
  • 10.7 United Kingdom
    • 10.7.1 MoD UK Grand Challenge
  • 10.8 Canada
  • 10.9 India
• 11. UGV Market Forecast
  • 11.0 UGV Market Forecast
    • Figure 11.1 Global UGV Market Forecast 2008-2018
  • 11.1 UGV Market Forecast 2008-2018
    • Figure 11.2 Projected US UGV Funding 2008-2018
  • 11.2 Future of UGVs
• 12. UMV and UGV Manufacturers
  • 12.1 Allen Vanguard Corporation
  • 12.2 ASV Ltd
  • 12.3 Applied Research Associates
  • 12.4 Atlas Elektronick
  • 12.5 Boeing
  • 12.6 BAE Systems
  • 12.7 Boston Dynamics
  • 12.8 Bluefine Robotics
  • 12.9 Deep Ocean Engineering
  • 12.10 Elbit Systems
  • 12.11 Foster Miller
  • 12.12 General Dynamics
  • 12.13 Hydroid
  • 12.14 International Submarine Engineering
  • 12.15 iRobot
  • 12.16 Israel Aerospace Industries
  • 12.17 Kongsberg
  • 12.18 Northrop Grumman
  • 12.19 Rafael
  • 12.20 Remotec
• 13. Conclusions

Companies Mentioned in this Report

• AAI
• Alenia (Finmeccanica)
• Allen Vanguard Corporation
• Applied Research Associates
• Aeronautic Defence Systems
• ASV Ltd
• Atlas Electronik
• BAE Systems
• Boeing
• Boston Dynamics
• Bluefin Robotics
• Cyber Flight
• CIRA
• Deep Ocean Engineering
• Dragonfly Air systems
• Dassault Aviation
• EADS-Dornier
• EMT
• EADS-Germany
• Elbit Systems
• Euro MC
• Finmeccanica
• Foster Miller
• FanWing
• Flying Robots
• Galileo Avionica
• General Atomics
• Giat
• Gates Techno
• Honeywell
• Hydroid
• Kestral Aerospace
• Israel Aircraft Industries
• International Submarine Engineering
• Integrated Systems
• iRobot
• Internet Aviation Supply
• Kongsberg
• Lockheed Martin
• Northrop Grumman
• Qinetiq
• Rafael
• Ratheon
• Rhiemetall DE
• Rhinmetall Defence Electronics
• Remotec
• Saab Seaeye
• Subsea 7
• Science Applications international corporation (SAIC)
• Sagem SA
• Selex Galilio
• Thales
• United Defence
• Yamaha